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manual | Users Manual | 817.08 KiB | August 11 2004 | |||
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1 | manual | Users Manual | 817.08 KiB | August 11 2004 |
T245 Control System Installation and Operations Manual DMAN-2053-01 Issue 5 November 27, 2001 2001 OMNEX Control Systems Inc. All rights reserved. T245 Control System Manual OMNEX Control Systems, Inc.
#74 1833 Coast Meridian Road, Port Coquitlam, B.C. Canada V3C 6G5
(604) 944-9247 Telephone:
Fax:
(604) 944-9267 http://www.omnexcontrols.com ii T245 Control System Manual Revision History Issue Description Pages Revision history added, T247 Hoffman box added to Part Numbers iii, 2 Added Throttle Enable O11, changed operation of Hydrosync shift 10, 17 04 05 Deleted obsolete part numbers 1 iii T245 Control System Manual This page is intentionally left blank. iv T245 Control System Manual Contents 7. 2. 1. 3. 4. 5. Introduction..........................................................................................................................1 1.1. Part Numbers ...........................................................................................................1 Physical Installation .............................................................................................................3 2.1. Receiver/Controller..................................................................................................3 2.2. Receiver Antenna.....................................................................................................3 2.3. Platform Holster Magnet..........................................................................................4 Considerations for Electrowelding ......................................................................................5 Electrical Connections .........................................................................................................6 Fuses, Configuration Jumpers............................................................................................11 5.1. R1300+ Board........................................................................................................11 5.2. S20 Board ..............................................................................................................11 6. Setting Up the Radio Receiver..................................................................................................12 6.1. Unique Identifier (Radio ID)......................................................................................12 6.2. No-Link Data Mode...................................................................................................13 6.3. Checksum Mode ........................................................................................................13 6.4. Changing Switch Settings..........................................................................................13 Operations..........................................................................................................................14 7.1. Receiver/Controller................................................................................................14 7.1.1. Error Codes................................................................................................14 T245/T45 Radio Transmitter .................................................................................14 7.2.1. Switching The Transmitter ON and OFF...................................................14 7.2.2. Operator Controls: .....................................................................................15 7.2.3. Tilt Failsafe................................................................................................16 7.2.4. Low Battery Indicator ................................................................................16 7.2.5. Battery Charging and Replacement ...........................................................16 7.2.6. Transmitter Light Summary.......................................................................17 7.2.7. Numeric Display........................................................................................17 T247/T47 Cable Remote........................................................................................18 7.3. 7.4. Emergency Override Panel ....................................................................................19 Proportional Drive Adjustments ........................................................................................20 Factory Parameters.............................................................................................................25 9.1. Types of Factory Parameters..................................................................................25 9.2. Changing the Factory Parameters ..........................................................................25 9.3. List of Factory Parameters .....................................................................................26 PWM Drive Frequency Parameters .......................................................................29 Boom Load Moment Limit ....................................................................................29 Boom Derating Factors..........................................................................................29 Emergency Override Panel Function Speed ..........................................................29 Auger Shake Speed................................................................................................29 8. 9. 7.2. v T245 Control System Manual Digger Transmission Type.....................................................................................29 Bucket/Pole-Claw Speed Ratio..............................................................................29 10. Warranty .................................................................................................................................30 vi T245 Control System Manual 1. Introduction The T45 Control System consists of a custom Receiver/Controller (grey box), an optional T245 Radio Transmitter and/or an optional T247 Cable Remote. An interface is also provided for an optional user-supplied Emergency Override Panel. The main components of the Receiver/Controller are an R1300+ (TPCB-1225-10) circuit board, an S20 (TPCB-1458-03) board, and a DEX-900 radio receiver. The Receiver/Controllers software is custom-designed for many applications. Various sensors mounted on the machine chassis send feedback information to the Receiver/Controller. This feedback information together with the operator commands determine the drive outputs to the Apitech electric-over-hydraulic valves. A sophisticated computer program, permanently encoded into the firmware chips of the Receiver/Controller, governs the mapping of inputs to outputs. Features of the computer program include safety interlocks to prevent injury to personnel as well as damage to the machine. The program incorporates a restart check which ensures that functions do not actuate unexpectedly due to operator panel switches being left on by accident. All wiring to the Receiver/Controller is through waterproof circular M.S. connectors on the outside of the fibreglass enclosure, to ensure that the NEMA 4X rating of the enclosure is preserved. This manual describes considerations which should be taken during installation and operation, and gives procedures for tuning the system to match the exact characteristics of your hydraulic valves
. 1.1. Part Numbers The list below gives the part numbers of the major components of the T245 Control System. You will need these numbers for reference and ordering spare parts. Component R2305 Receiver (supports T245, T47 and T247; replaces R1302 and R1305) Factory Key for Receiver/Controller User Key for Receiver/Controller Shock Mount Kit for Receiver/Controller Antenna Kit for Receiver/Controller Output Cable with 54-pin Connector, 6 feet Emergency Override Panel Interface OMNEX Part Number ASSY-1992-01 Versalift Part Number 19425-1 ACAB-1355-02 ACAB-1355-01 AKIT-1498-01 A0005 ACAB-1733-01 19444-1 Y1619 Y1616 19292-1 ACAB-1734-01 1 T245 Control System Manual 1. Introduction The T45 Control System consists of a custom Receiver/Controller (grey box), an optional T245 Radio Transmitter and/or an optional T247 Cable Remote. An interface is also provided for an optional user-supplied Emergency Override Panel. The main components of the Receiver/Controller are an R1300+ (TPCB-1225-10) circuit board, an S20 (TPCB-1458-03) board, and a DEX-900 radio receiver. The Receiver/Controllers software is custom-designed for many applications. Various sensors mounted on the machine chassis send feedback information to the Receiver/Controller. This feedback information together with the operator commands determine the drive outputs to the Apitech electric-over-hydraulic valves. A sophisticated computer program, permanently encoded into the firmware chips of the Receiver/Controller, governs the mapping of inputs to outputs. Features of the computer program include safety interlocks to prevent injury to personnel as well as damage to the machine. The program incorporates a restart check which ensures that functions do not actuate unexpectedly due to operator panel switches being left on by accident. All wiring to the Receiver/Controller is through waterproof circular M.S. connectors on the outside of the fibreglass enclosure, to ensure that the NEMA 4X rating of the enclosure is preserved. This manual describes considerations which should be taken during installation and operation, and gives procedures for tuning the system to match the exact characteristics of your hydraulic valves. CAUTION: Changes or modifications not expressly approved by the party responsible for compliance could void the user's authority to operate the equipment. 1.1. Part Numbers The list below gives the part numbers of the major components of the T245 Control System. You will need these numbers for reference and ordering spare parts. Component R2305 Receiver (supports T245, T47 and T247; replaces R1302 and R1305) Factory Key for Receiver/Controller User Key for Receiver/Controller Shock Mount Kit for Receiver/Controller Antenna Kit for Receiver/Controller Output Cable with 54-pin Connector, 6 feet Emergency Override Panel Interface 1 OMNEX Part Number ASSY-1992-01 Versalift Part Number 19425-1 ACAB-1355-02 ACAB-1355-01 AKIT-1498-01 A0005 ACAB-1733-01 19444-1 Y1619 Y1616 19292-1 ACAB-1734-01 T245 Control System Manual 2. Physical Installation 2.1. Receiver/Controller The Receiver/Controller should be mounted with the connectors down, and in a location so that the enclosure door may be opened conveniently for access to the inside. Shock mounts must be used to mount the enclosure! Under no circumstances should the enclosure be directly bolted to the machine. Figure 1 below illustrates how the shock mounts should be installed:
Figure 1 Enclosure Mounting The Receiver/Controller enclosure is sealed and has a NEMA-4 rating. When installing, ensure that nothing is done to compromise the watertightness of the enclosure. When performing maintenance it may be necessary to gain access to the inside of the enclosure; take care to re-close the door securely when you are done. 2.2. Receiver Antenna The receiver antenna should be mounted pointing up and as high as possible, preferably with a large metal surface below it but no metal above or to the side. The antenna must be mounted on the outside of the machine; do not mount it inside an operators cab or in a toolbox. Assemble the antenna as shown in Figure 2 below, and thread (finger-tight only) the connector onto the matching receptacle on the Receiver/Controller. 3 T245 Control System Manual Figure 2 Antenna Assembly 2.3. Platform Holster Magnet The magnet which indicates to the T245 Radio Transmitter that it is in the platform holster should be mounted with the plastic face up, towards the T245. The drawing below is an internal view of the T245 bottom half, indicating where the magnetic switch is. D C B A 1 REVISIONS REV DATE:
APPROVED:
ECO 1 05-12-99 DESCRIPTION:
REV DATE:
APPROVED:
ECO T45 Bot. Versalift -Iss1 DESCRIPTION:
GENERAL NOTES:
1. MATERIAL: SWITCH, MAGNETIC REED INSTALLATION INSTRUTION. UNLESS OTHERWISE SPECIFIED DIMENSIONS ARE IN INCHES TOLERANCES DECIMALS ANGULAR
.XX + .05 + 0.5
.XXX + .010 DO NOT SCALE DRAWING THIRD ANGLE PROJECTION:
THESE DESIGNS AND SPECIFICATIONS ARE THE PROPERTY OF OMNEX CONTROL SYSTEMS INC. AND SHALL NOT BE COPIED OR USED FOR MANUFACTURING WITHOUT ITS WRITTEN CONSENT. CHECKED:
DRAWN:
DESIGNED:
R T F G. C. W. H. DATE:
DATE:
DATE:
05-12-99 05-12-99 05-12-99 OMNEX Control Systems Inc. TITLE:
PART #:
DRAWING #:
SCALE:
T45 Bot. Versalift -Iss1 ASUB-1327-03 DSUB-1327-03 1 : 2 SHEET: OF 1 1 REV 1 SIZE B 1 D C B A 2 SWITCH , MAGNATIC REED
(P/N: SX-MPS9WGN) INSTALLATION INSTRUCTION. 1.100 4 3 2.200 A A 18 AWG 3.75" WHT. 2 PLACES. SILICONE SEALING ALL WAY AROUND. SECTION A-A DRILL 3.5 DIA. HOLE ON T45 BOTTOM ONLY,
(PRESS FIT) NOT DRILL ON BATTERY BOTTOM. 4 3 2 Figure 3 T245 Magnetic Switch 4 T245 Control System Manual 3. Considerations for Electrowelding The electronics in the T245 Control System can be damaged by the high currents and voltages employed in electrowelding. If electrowelding must be performed after the Control System has been installed, observe the following precautions to reduce the risk of damage:
Do not connect the ground clip to a point on the chassis close to the enclosures. Disconnect the harnesses to the enclosures and sensors at the M.S. connectors. Also disconnect the battery (PTO switch) and ground connections going into the enclosures. Do not strike an arc close to the enclosures and sensors, or wiring leading into the enclosures and sensors. Do not weld to the sensors. 5 T245 Control System Manual 4. Electrical Connections The Receiver/Controller has two circular M.S. connectors for connection to your chassis wiring. A 54-pin M.S. connector is used for power and function outputs. A 16-
pin M.S. connector is provided for connection to the T47 Cable Remote or Emergency Override Panel. The following tables specify the assignment of each pin, with corresponding markings on the circuit boards for reference. The wire numbers refer to the old-style Output Cable and not the new Custom Output Harness. Main Connector (Power and Functions):
Function 54-pin (32A10P) Wire #
Board References Ground Power for Electronics (Battery Positive) Power for Function Outputs (Batt. +) 48,38 39 yellow
+green Dump Valve Output (drives power out when radio signal is being received from transmitter) Engine START Engine STOP Winch DOWN Winch UP Digger DIG Digger CLEAN Lower Boom LOWER Lower Boom RAISE Intermediate Boom EXTEND Intermediate Boom RETRACT Upper Boom EXTEND Upper Boom RETRACT Pole Guide/Platform LOWER Pole Guide/Platform RAISE Boom Rotate CCW Boom Rotate CW 49 24 47 29 25 46 45 5 14 23 26 3 22 44 30 6 13 6 M.S. Pin A, AF AG B C D E F G H J K L M N O P R S T U J15 (R1300), J3 (S20) J12 (R1300), J1 (S20) J14 (R1300) J13 (R1300), J2 (S20) D2 (R1300) D1 (R1300) 1+ (R1300) 1- (R1300) 2+ (R1300) 2- (R1300) 3+ (R1300) 3- (R1300) 4+ (R1300) 4- (R1300) 5+ (R1300) 5- (R1300) 6+ (R1300) 6- (R1300) O1 (S20) O2 (S20) T245 Control System Manual Function Wire #
54-pin (32A10P) M.S. Pin Board References V W X Y Z a b c d e f g h j k m n p q r s t O3 (S20) O4 (S20) O5 (S20) O6 (S20) D4 (R1300) D5 (R1300) D6 (R1300) D7 (R1300) D3 (R1300) O9 (S20) D8 (R1300) J2 pin 6 (R1300) J2 pin 7 (R1300) J2 pin 8 (R1300) J2 pin 2 (R1300) J2 pin 3 (R1300) J2 pin 4 (R1300) J2 pin 5 (R1300) J2 pin 1 (R1300) J3 pin 1 (R1300) J3 pin 3 (R1300) Pole Guide/Platform OPEN Pole Guide/Platform CLOSE Digger Shift HIGH Digger Shift LOW Auger LATCH Auger UNLATCH Throttle UP Throttle DOWN Emergency Power Electronic Throttle Output (pulse-width modulated signal; formerly 0 to 5V) Hydraulic Tool Valve Upper Boom Extended Switch (N.O. contact) Intermediate Boom Retracted Switch
(N.O. contact) Upper Boom Retracted Switch (N.O. contact)
(not used) Auger Overstow Switch (N.O. contact) Input
(spare switch input)
(spare switch input) Boom Stowed Switch (N.O. Contact) Input
+5V Power for N.O. Switches
+5V for Proportional Pressure and Angle Sensors Angle Sensor Input
(-20.0 = 0.5V, +80.0 = 4.5V) 12 21 27 4 2 20 31 7 9 1 43 32 28 8 33 15 17 11 42 34 16 7 T245 Control System Manual Function Wire #
54-pin (32A10P) M.S. Pin Lift Cylinder Piston-Side Pressure Sensor Input (0 PSI = 0.5V, 3000 PSI =
4.5V) Lift Cylinder Rod-Side Pressure Sensor Input (0 PSI = 0.5V, 3000 PSI = 4.5V) Ground for Proportional Pressure and Angle Sensors
(spare 0-5V proportional input)
(spare 0-5V proportional input)
(spare 0-5V proportional input)
(spare 0-5V proportional input)
(spare pulse input)
(spare pulse input) Turret Brake Release Throttle Enable 10 19 35 18 36 41 37 50 u v w x y z AA AB AC AD AE Board References J3 pin 4 (R1300) J3 pin 5 (R1300) J3 pin 6 (R1300) J40 pin 2 (R1300) J40 pin 3 (R1300) J40 pin 4 (R1300) J40 pin 5 (R1300) P1 (S20) P2 (S20) O7 (S20) O11 (S20) There are two separate power (+12V) and ground pins on the Main Connector. If you are using the old-style Output Cable or are making your own wire harness, the two ground pins (A and AF) should be connected to a good ground point at the battery or on the chassis. The two power pins (AG and B) should be connected to a good switched source, usually at the vehicles PTO switch. While the Receiver/Controller contains internal fusing, it is highly recommended that in-line fuses be used to protect the wiring harness in case of short circuits; use a 3A fuse for pin AG, and a 15A fuse for pin B. The Dump Valve Output (pin C) is a safety feature, and must be used to control a dump valve in the hydraulic pressure circuit. Whenever this output becomes de-
energized, the dump valve must divert the hydraulic flow back to tank so that all hydraulically-powered movements stop. Only when this output is energized (driving
+12V out) should the machine have hydraulic power. The rest of the output functions except for the Electronic Throttle Output (pin e) are designed to drive either proportional or on/off solenoids at up to 3A each. Note that the total simultaneous load must not, of course, exceed the ratings of the power fuses
(both inside the Receiver/Controller and your harness fuses). As the power distribution is complex, please contact OMNEX for information before changing the fuse ratings from their original values. 8 T245 Control System Manual To control the engine throttle, use pin e for electronic throttles which take pulse-
width modulated signals (such as Caterpillar ECUs), or wire pins b and c to direction-
control relays for motor-driven throttles. The Switch Inputs (pins m, n, p and q) are best switched to the +5V Power supplied from pin r, although they will work fine if switched to +12V. The +5V from pin r is preferred because it is already protected against short circuits. Do not feed +12V back into pin r. The proportional sensors must be powered from pin s (+5V) and pin w
(ground). Do not power them from +12V or any other ground. T47 Cable Control / Override Panel Connector:
Function Wire #
16-pin (24-5S) M.S. Pin Board References Ground Power to T47 Wired Remote Interface A Wired Remote Interface B E-Stop A E-Stop B T47 ON Switch /
Override Panel ENABLE Button Ground Override Panel Boom Rotate CCW Override Panel Boom Rotate CW Override Panel Intermediate Boom EXTEND Override Panel Intermediate Boom RETRACT Override Panel Upper Boom EXTEND 14 13 4 5 11 15 6 10 3 1 16 2 9 A B C D E F G H J K L M N J15 (R1300), J3 (S20) J41 (R1300) J1 pin 5 (R1300), CN4 pin 4 (S20) J1 pin 2 (R1300), CN4 pin 3 (S20) J41 (R1300) CN8 pin 8 (S20) CN8 pin 4 (S20), CN3 pin 2 (S20), J2 pin 9 (R1300) J15 (R1300), J3 (S20) J10 pin 2 (R1300) J10 pin 3 (R1300) J10 pin 4 (R1300) J10 pin 5 (R1300) J10 pin 6 (R1300) An external module may be used to convert the pulse-width modulated signal to a 0 to 5V signal for Navistar, Ford, and GMC ECUs. Contact OMNEX for details. 9 T245 Control System Manual Function Wire #
16-pin (24-5S) M.S. Pin Override Panel Upper Boom RETRACT Override Panel Lower Boom LOWER Override Panel Lower Boom RAISE 17 8 7 P R S Board References J10 pin 7 (R1300) J10 pin 8 (R1300) J10 pin 9 (R1300) In systems which include a T247 or T47 Cable Remote, the 16-pin connector is used for connection to the Cable Remote. However, in systems without a T247/T47, a truck-mounted Emergency Override Panel must be provided; use either the old-style Emergency Override Panel Interface Cable or the new Custom Emergency Override Panel Harness to make connections from the 16-pin connector to this Panel. The Emergency Override Panel must provide a normally-closed Emergency-Stop button across pins E and F. The emergency-stop circuit must be closed to operate the machine. The Emergency Override Panel must also provide a momentary, normally-open contact between pin B and pin G; this is the override button which the operator must press and hold to override the T45 Radio Transmitter. Pin B is also the common to all the override switches (pins J through S). Pins C and D are not used for the Emergency Override Panel. 10 T245 Control System Manual 5. Fuses, Configuration Jumpers The R1300+ and S20 circuit boards have a number of fuses and configuration jumpers which must be specific values for operation. 5.1. R1300+ Board F2 = 10A F3 = 15A F4 = 1A F5 = (omit) JP1 (MAIN BYPASS) = OFF JP4 (RADIO STATUS) = OFF JP2 (INPUTS 1) = GND JP3 (INPUTS 2) = GND J25/J29/J34 = (no jumper installed) J26 (PWM PWR) jumpered to J22 J28 (OUT PWR) jumpered to J23 J27 (DIGITAL PWR) jumpered to J24 SW1 = (all positions OFF) SW2 = (all positions OFF) 5.2. S20 Board F4 = 10A F5 = 1A F6 = 1A 11 T245 Control System Manual 6. Setting Up the Radio Receiver If you have purchased the optional T245/T45 Radio Transmitter, you will need to verify that the Radio Receiver is set up to respond to your particular Radio Transmitter. This section describes how to set the banks of configuration switches (see Figure 4) on the front of the DEX-900 or REX-900 Radio Receiver (mounted to the S20 Board inside the enclosure lid). 1 9 1 9 8 16 8 16 Figure 4 Radio Receivers 6.1. Unique Identifier (Radio ID) Each T245/T45 Radio Transmitter is identified by a unique Radio ID. The DEX-900 or REX-900 in your Receiver must be set up to match the ID of your transmitter. On the back plate (to which the metal guard is attached) is affixed a serial number and ID Code label, an example of which is shown in Figure 5. The ID code consists of two parts, SW 1 and SW 2, corresponding to switch banks labelled ID 1 through 8 (SW 1) and 9 through 16 (SW 2) on the DEX-900 and REX-900. Figure 5 Radio Transmitter ID Label The ID Code is punched as holes in the label, with the position of the hole indicating the position of each of the small switch handles on the REX-900. Left to right corresponds to 1 through 8, and 9 through 16. On the label, 1 means ON and 0 means OFF. On the REX-900, ON is towards the ANTENNA connector (as marked on each bank of switches), and OFF is towards the EXPANSION connector. Thus, to match the REX-900 to the transmitter ID code given in the example label of Figure 5, you must set switches 1 through 8 to OFF, ON, ON, OFF, OFF, ON, OFF, ON, and switches 9 through 16 to ON, ON, ON, ON, OFF, OFF, OFF, ON. 12 T245 Control System Manual 6.2. No-Link Data Mode The third bank of switches (MODE 1 through 8) on the DEX-900 and REX-900 is used to select various features on the radio receiver. For the Versalift Receiver/Controller, only position 5 should be ON. This sets the DEX-900 or REX-900 to clear all its output data whenever there is no link or signal from the Radio Transmitter of the right ID. 6.3. Checksum Mode The DEX-900 has a fourth bank of switches (MODE 9 through 16) for selecting additional features. For the Versalift Receiver/Controller, only position 5 should be ON. This sets the DEX-900 to use checksums when transferring data to and from the R1300+ board. 6.4. Changing Switch Settings To change the switch settings, use a ballpoint pen or small screwdriver to move the switch levers. When you have set the levers to the right positions, turn the system power off (usually by shutting off the vehicles PTO switch) and back on again. The DEX-900 or REX-900 will take about 5 seconds to process your changes and then turn on its red ON lamp. You must switch the power off and on whenever you change the DEX-900/REX-900 switches, for the changes to take effect. 13 T245 Control System Manual 7. Operations This chapter briefly describes how to operate the T245 Control System. These instructions are intended to give you an understanding of basic operating principles; this is not a complete Operators Manual. Once installation has been completed and checked, we recommend that you read this section carefully and operate the system to become accustomed to the controls. 7.1. Receiver/Controller The Receiver/Controller does not contain an on/off switch. It is functional as soon as power is applied; power should be switched though an external switch, such as the vehicles PTO switch. 7.1.1. Error Codes The Receiver/Controller constantly monitors its safety systems. If a fault is detected, the Receiver/Controller will disable all control functions and begin flashing all of the VALUE lights in its Configuration Panel (see Figure 7) together with one of the numbered OUTPUT lights. The codes are as follows:
OUTPUT Light Flashing 1_ 2_ Fault Indicated and Remedy One or both power relay contacts have welded closed. Replace both relays if they are the plug-in types; if not, the R1300+ board must be replaced. REX-900 receiver stop-circuitry fault. Replace the REX-900. 7.2. T245/T45 Radio Transmitter A description of transmitter operation follows. 7.2.1. Switching The Transmitter ON and OFF The T245/T45 Radio Transmitter has three LED lights to indicate its operating status, and a toggle switch to turn it on and off. It has built-in safety features to both protect you against unexpected movement of the controlled machine, and self-
check its emergency stop circuit, when powering up. The operation of its status lights and power-on sequence is as follows:
To switch ON the transmitter:
1. Move the POWER switch to the ON position. The red STOP light will flash to indicate you must test the EMERGENCY STOP button. 14 T245 Control System Manual 2. The EMERGENCY STOP button test is two-part; the transmitter needs to see both states (pressed and released) of the button before it will allow you to operate. If the STOP light is flashing slowly, press the EMERGENCY STOP button. If the STOP light is flashing quickly, release the EMERGENCY STOP button. When the test is done, the button will be released. 3. The transmitter now checks to ensure that all switches and joysticks are in their off or neutral positions. If they are not, the green
(transmit) light and red STOP lights will flash together to indicate that you must switch off any functions which are on. 4. During normal operation, the green light is on solid if no functions are switched on, and flashes if one or more functions are active. Be sure to switch off the transmitter when you are finished operating. Besides depleting the battery, an active, unattended transmitter is a safety hazard!
7.2.2. Operator Controls Once the transmitter is switched on and the green light is on, all joysticks and toggle switches are active. The label indicates which machine functions are affected by each control. To operate the dual-axis joystick functions or the centre paddle, you must press and hold one of the joystick deadman triggers. The Throttle Enable output will turn ON 4 seconds after a REMOTE START is received. It will turn OFF after an E-Stop or ENGINE STOP. The DIGGER SHIFT function behaves slightly differently depending on whether you have a Two-Speed digger transmission or a Hydrasync digger. With a Hydrasync digger, you can shift on the fly and the shift occurs immediately when you activate DIGGER SHIFT (the Control System will toggle between HIGH and LOW speed). When in HIGH speed the Control System will pulse the HIGH output ON for 1 second and OFF for 4 seconds. It will continue to pulse until a shift into LOW speed or an E-Stop. With a Two-Speed digger, activating DIGGER SHIFT will start an automatic 3-second shift sequence: The digger motor is stopped (if it is moving) for 1 second, a shift command is applied to the transmission for 1 second, and another 1-second delay occurs before the digger motor can be restarted. You do not need to hold the toggle switch for the entire sequence. Thus, you can be digging with the DIG/CLEAN paddle, toggle DIGGER SHIFT and the auger will automatically stop, shift, and resume with you having to let go of the DIG/CLEAN paddle. The AUGER UNLATCH function will only operate if the Upper Boom is retracted. The AUGER UNLATCH function will automatically shift the digger into low and stop all auger movements. Once the digger is shifted into low, the auger is unlatched for 8 seconds after which the auger will automatically re-latch. 15 T245 Control System Manual 7.2.3. Tilt Failsafe The transmitter is equipped with a tilt sensor which automatically engages the EMERGENCY STOP if the transmitter is tipped more than 90 from its normal horizontal operating position. This is a failsafe mechanism that protects the operator in case he or she falls or is struck by the machine itself. To resume operation from a tilt condition, press and release the EMERGENCY STOP button after righting the transmitter. 7.2.4. Low Battery Indicator The
(battery) light is the low battery indicator. When the battery voltage is acceptable, the lamp will be off. If the voltage becomes too low, the lamp will begin to blink and the battery should be recharged, or replaced, as soon as possible. The control system will not become erratic with a low battery; it will simply cease to operate when the voltage falls below the minimum operating level. 7.2.5. Battery Charging and Replacement The Transmitter is powered by a Makita 9.6V rechargeable power tool battery. A Makita charger is available for purchase from OMNEX. Call 1-800-663-8806 to order. To charge the battery please follow the instructions included with the charger. To remove the battery from the transmitter, grasp the lip on the battery door and pull it down and out to open the door. Tilt the case to allow the battery to slide out. The battery is keyed to prevent incorrect installation (see Figure 6 below). Figure 6 Battery Replacement 16 T245 Control System Manual 7.2.6. Transmitter Light Summary The following table describes all the conditions indicated by various states of the three transmitter lights. Note that the transmitter performs some self-diagnostics, and can indicate joystick and radio failures in addition to the usual operating status. Legend: = LED on, = LED flashing slowly, = LED flashing quickly,
= LED off, N/A = Not Applicable LED
N/A N/A N/A N/A
LED
/ N/A
STOP LED
N/A
Description Action Required Battery Dead; Power Off E-Stop Test E-Stop Test Part two Functions not all off on EMERGENCY STOP release All Okay, all functions off All Okay, 1+ functions on Emergency Stop Low Battery Module failure: Joystick Module failure: Radio Charge Battery; Turn Power On Press E-STOP Button Release E-STOP Button Set all functions off OK, continue as required OK, continue as required E-STOP Button Pressed Replace/Recharge Battery Cycle Power--if not remedied, call service Cycle Power--if not remedied, call service 7.2.7. Numeric Display The transmitter contains a three-digit numeric display to further indicate operating status. It can display numbers between 0.0 and 99.9, and is lighted for night viewing. There are several quantities that the display can show, indicated by pointers to three marks (LOAD %, BOOM ANGLE, DIAG) at the right edge of the display:
Mark Pointed To LOAD %
BOOM ANGLE DIAG BOOM ANGLE and DIAG Quantity Shown Percentage of allowable boom load. The absolute value of the boom angle, in degrees. The voltage, 0.0 to 5.0, at the piston-side pressure sensor. The voltage, 0.0 to 5.0, at the rod-side pressure sensor. Additionally, the display can have a digit between 0 and 9 in the right-most position, with the left three digits showing diagnostic information as follows:
Legend (Right Digit) 0 Information Shown (Left Three Digits) This special mode shows the Boom De-rating Factor being 17 Legend (Right Digit) 1 2 T245 Control System Manual Information Shown (Left Three Digits) adjusted and will only appear in Factory Setup mode. Please see 9. Factory Parameters for more information. Boom Extension Switches:
100 = Upper Boom Extended, 10 = Intermediate Boom Retracted, 1 = Upper Boom Retracted Boom Stow Switches:
100 = Auger Overstow, 10 = Boom Stowed To change between these displays, press the DISPLAY button. The display will always start at LOAD % after releasing the transmitters EMERGENCY STOP. Holding the DISPLAY button for more than two seconds will also return the display to LOAD %. The display will only work when the transmitter is switched on and its EMERGENCY STOP is released (the STOP light must not be on or flashing); otherwise, the display will show three dashes (- - -) in place of numbers. If the T247 Cable Remote is plugged in and switched on, the display on the T245/T45 Transmitter will stop working and the information will be displayed on the T247s display instead. The display in the newer T245 will operate whenever the T245 is in control of the VXD, with a range of about 1200 feet (line-of-sight). The display in the older T45 will operate within a 100-foot (approximate) radius of the Receiver/Controllers antenna;
however, the remote control of the machine will operate over a range of about 1200 feet. Should the display in the older T45 stop working because you are too far from the machine, you can still safely operate the controls but you will not be able to read the status information. 7.3. T247/T47 Cable Remote If you have purchased the optional T247 or T47 Cable Remote, you may operate the Control System with all of the electronic safety features afforded with the Radio Transmitter, but via a hardwire (cable). To activate the T247/T47 Cable Remote, release the red Emergency Stop button and switch on the POWER switchthe control of the machine is now taken away from the Radio Transmitter and given to the Cable Remote. All control functions operate as in the Radio Transmitter. Note that for safety, the Cable Remotes Emergency Stop button must be released even when operating from the Radio Transmitter (Cable Remote POWER switch turned off); this allows someone to stop the machine at the Cable Remote. If more than one switch is on, the values are added. Hence, the display 1011 indicates that the Upper Boom Extended switch is on, the Intermediate Boom Retracted switch is off, and the Upper Boom Retracted switch is on. 18 T245 Control System Manual The numeric display in the T247 Cable Remote does not have any distance limitation as in the T45. The display will work as long as the T247s cable is connected, the T247s POWER switch is turned on and the EMERGENCY STOP is released. 7.4. Emergency Override Panel If you have not purchased the T247/T47 Cable Remote, you must have an Emergency Override Panel connected in place of the Cable Remote. To operate from the Emergency Override Panel, make sure the Emergency Stop button on the Panel is released and press and hold the ENABLE button while operating the toggle switches on the Panel. 19 T245 Control System Manual 8. Proportional Drive Adjustments Each proportional valve output can be adjusted to match the characteristics of the individual valve. There are proportional functions which come out of the R1300+ circuit board, as well as out of the S20. The proportional outputs from the S20 are numbered O1 through O16, and the proportional outputs from the R1300+ are numbered 1+ through 6-; their assigned functions are indicated in the table below. Function Set-Up Panel Proportional Output 1+ (R1300) 1- (R1300) 2+ (R1300) 2- (R1300) 3+ (R1300) 3- (R1300) 4+ (R1300) 4- (R1300) 5+ (R1300) 5- (R1300) 6+ (R1300) 6- (R1300) O1 (S20) O2 (S20) O3 (S20) O4 (S20) O5 (S20) O6 (S20) O7 (S20) O8 (S20) O9 (S20) O10 (S20) Indicator Solid 1+
Solid 1-
Solid 2+
Solid 2-
Solid 3+
Solid 3-
Solid 4+
Solid 4-
Solid 5+
Solid 5-
Solid 6+
Solid 6-
Winch DOWN Winch UP Digger DIG Digger CLEAN Lower Boom LOWER Lower Boom RAISE Intermediate Boom EXTEND Intermediate Boom RETRACT Upper Boom EXTEND Upper Boom RETRACT Pole Guide/Platform LOWER Pole Guide/Platform RAISE Boom Rotate CCW Boom Rotate CW Pole Guide/Platform OPEN Pole Guide/Platform CLOSE Flashing 1+
Flashing 1-
Flashing 2+
Flashing 2-
Flashing 3+ Digger Shift HIGH (normally set for on/off behaviour) Digger Shift LOW (normally set for on/off behaviour) Flashing 3-
Flashing 4+
(Do not adjustused for Turret Brake Release)
(spare proportional output) Flashing 4-
Flashing 5+
Electronic Throttle (PWM output signal)
(not used) Flashing 5-
20 T245 Control System Manual Proportional Output O11 (S20) O12 (S20) O13 (S20) O14 (S20) O15 (S20) O16 (S20) Set-Up Panel Indicator Flashing 6+
Flashing 6-
Solid 1 Solid 2 Solid 3 Solid 4 Function
(not used)
(not used)
(not used)
(not used)
(not used)
(not used) Built-in to the R1300+ is a Set-Up Panel (see Figure 7) consisting of three columns of indicator lights, seven push buttons, and a socket for a plug-in key. As shown in the diagram below, there are five configurable parameters (centre column of lights) for each proportional (pulse-width modulation, PWM) output: Threshold, Start PWM, Max PWM, Ramp Up, and Ramp Down. The Set-Up Panel has Output lights 1+ to 6- which correspond directly to the proportional outputs of the R1300+. For adjustment of the proportional outputs of the S20, the Output lights are re-used as per the Set-Up Panel Indicator column in the above table. The 12 R1300+ proportional outputs are indicated by the lights in the Output column as follows: When the 1_ and + lights are solidly on, the 1+ parameter is being output is being adjusted. The 1_ and - lights indicate 1-, and so on. The table above lists these as Solid 1+ through Solid 6-. The first 12 S20 proportional outputs (O1 through O12) are indicated by flashing 1+ through flashing 6-. The table above lists these as Flashing 1+ through Flashing 6-. The last 4 outputs (O13 through O16) of the S20 are indicated by the 1_ through 4_ lights solidly on with both the + and - lights off. The table above lists these as Solid 1 through Solid 4. 21 T245 Control System Manual Value MAX Key Threshold Output Param 1_ 2_ 3_ 4_ 5_ 6_ Max PWM Start PWM Ramp Up
+
-
Ramp Down MIN Store Figure 7 R1300+ Set-Up Panel The Ramp parameters control how fast the output builds up or down to the final value according to a first-order difference equation. The separate Ramp Up and Ramp Down time constants allow you to tune the valve response for smooth, non-jerky actuation. The Threshold, Start PWM, and Max PWM parameters control the transfer-
function from input (joystick position) to PWM-output value, as shown in Figure 8. The joystick position can go from 0 to 127. The threshold is simply the deadband beyond which the joystick must move in order to actuate the PWM output. The PWM output starts at Start PWM as soon as the joystick has exceeded the threshold, and maps linearly with joystick position up to Max PWM. PWM Output Max PWM Start PWM 0 0 Threshold 127 Joystick Posit Figure 8 Proportional (PWM) Output Function 22 T245 Control System Manual In order to customize various parameters for the PWM outputs, the configuration panel must be enabled by plugging in the Factory Key or User Key (supplied); you will then be in Proportional Drive Setup mode. The display will initially be displaying Output 1 +, no Param lights will be illuminated, and the Value lights will be displaying the Start PWM and Max PWM as solid lights. Also, a flashing Value light will show the actual function output value. The flashing light will move as the corresponding joystick is moved, and you will also see the green light next to the 1+
output on J6 go brighter and dimmer. To select the output pin you want to change parameters for, press the buttons under the Output lights. To change a parameter, press the buttons under the Param lights until the desired parameter is lit up (Threshold, Start PWM, Max PWM, Ramp Up, Ramp Down). The Value lights will now indicate where the selected parameter is currently set, in relation to the MAX and MIN values allowed for that particular parameter (see table below). Press the buttons below the Value lights to raise or lower the parameter; if the value of the parameter is in between two lights, the two adjacent lights will both be on at once, each with relative brightness corresponding to how far in between the two lights the value is. To change a parameter a long way, press and hold the button and it will auto-repeat as on a computer keyboard. The table below indicates the minimum, maximum, and increment values for each of the proportional drive adjustments. The default values for each parameter are specific to each proportional output and are not listed. Parameter Threshold Start PWM Minimum 0 (out of 127) 0%
Increment 1 1%
Maximum 40 (out of 127) lesser of 100% and Max PWM Minimum setting 100%
Max PWM Ramp Up Ramp Down greater of 0% and Start PWM Maximum setting 0 ms 0 ms 1%
34 ms 34 ms 1054 ms 1054 ms 23 T245 Control System Manual As you are adjusting any of the parameters, you can try the new setting right away by moving the joystick and watching the hydraulic/pneumatic response. A very good way to tune the proportional parameters is to have someone watch the override handles on the hydraulic valves (or the cylinder or bellows in a pneumatic system) as you operate the joystick from just-on to full-on; for best metering action, adjust the Start PWM and Max PWM such that the whole travel of the joystick corresponds to full travel of the override handle, with no dead region at the start or end of the joystick travel. Note: It is very important that the proportional drive frequency be correct for the type of valve installed in your system. Please see the next chapter for information on how to set the drive frequency, and make sure it is correct before attempting to adjust the PWM output parameters. When you are satisfied with the way the parameters are set up, press the Store button. All of the lights will come on to indicate that the new parameters have been stored. If you wish not to save the changes you have made, simply unplug the key. Then, you can plug the key back in and start again from the original settings. If you have stored a set of new parameters which are so far off from values which the machine will operate with, press and hold the Store button until all the lights begin to flash. Release the button and all of the Proportional Drive parameters will be reset to factory-default values. Important: The key should not be left plugged in after you have completed the set-up procedure. Leaving the key in may allow someone to change the parameters accidentally, as well as allow the long-term vibration of the vehicle to damage the key. 24 T245 Control System Manual 9. Factory Parameters The Control System has a number of Factory Parameters which may be configured to match the model of valves installed in the machine, and to set the load limit. They are called Factory Parameters because they are usually set at your factory before the machine is shipped to the end customer. In the application, the first 4 Factory Parameters are PWM drive frequencies for the various banks of proportional outputs, and the rest of the Factory Parameters set boom load moment limits and speeds of special functions. In the general discussion below, reference is made to up to 48 Factory Parameters, which means more parameters may be added in the future, if required. 9.1. Types of Factory Parameters There are only two types of factory parameters. The first type of parameter is a multiple-choice selection; the PWM Drive Frequency for S20 Proportional Outputs O1 through O8 parameter is an example of a multiple-choice parameteryou set it by selecting one of 5 different frequencies. The second type of factory parameter is a variable-value adjustment with a minimum and maximum value. Examples of such a parameter are the Boom Derating factors; you set between 20% and 150% in 2% increments. 9.2. Changing the Factory Parameters To change or view the Factory Parameters, use the following procedure:
1. Plug the Factory Key (the User Key will not allow you to enter Factory Setup Mode) into the R1300 Controller boards Set-up Panel; you will be in Proportional Drive Setup mode. Enter Factory Setup mode by momentarily pressing the two lower left-
hand buttons together; the light display will change. 2. There can be up to 48 Factory Parameters. Pressing the up and down buttons at the bottom of the Output column changes the parameter you are accessing. The first 12 are indicated by the lights in the Output column as follows: When the 1_ and +
lights are on, the first parameter is being accessed. The 1_ and - lights indicate the second parameter, 2+ indicates the third, 2- indicates the fourth, etc. down to 6- which is the 12th parameter. The next 12 parameters are indicated by flashing 1+ through flashing 6-. The next 6 parameters are indicated by the 1_ through 6_ lights solidly on with both the + and - lights off. The next 6 are indicated by 1_ through 6_ solidly on with both the + and - lights on. The next 6 parameters are indicated by flashing 1_ through flashing 6_ with both the + and - lights off. The last 6 parameters are indicated by flashing 1_ through flashing 6_ with both the + and - lights also flashing. 25 T245 Control System Manual 3. To change or view a particular Factory Parameter, press the up or down Output buttons until you reach the desired parameter (see table below). Note that if you press the up button when you are already at the top (parameter 1, solid 1+), the display will wrap around to the last parameter (parameter 48, flashing 6). A similar wrap-around happens when you press the down button when you are already at the last parameter. 4. The display will show one light on in the Param column if the selected parameter is a multiple-choice type, or one or two lights in the Value bar graph if the parameter is a variable-value type. You change the multiple-choice selection using the buttons under the Param lights, and the variable-value using the buttons under the Value lights. For multiple-choice parameters, the top Param light (Threshold) through the bottom light (Ramp Down) are referred to in the table as choices A through E. When changing a variable-value parameter, note that the top Value light (MAX) corresponds to the maximum value allowed for that parameter (see table below), and the bottom (MIN) corresponds to the minimum value allowed. Each single press of the Value up or down buttons will change the parameter by the increment value for that parameter. Holding down either button will cause it to automatically repeat, and is useful when you need to change a value a long way from where it is. If you are adjusting either of the Boom Derating Factors, the numeric display on the T45 or T47 will show the value (in percent) of the parameter you are adjusting, with no pointers (LOAD %, DIAG1, DIAG2) showing. 5. When you are done changing the parameters, press the Store button to save the new Factory Parameters. If you do not want to save your changes, remove the Factory Key. If you want to restore the Factory Parameters to the preprogrammed factory-
default settings, press and hold the Store button until all the lights begin flashing; only the Factory Parameters are affected--the Proportional Drive Settings can only be reset by holding the Store button in Proportional Drive Setup Mode. 6. You can now remove the Factory Key or simultaneously press the two lower-left hand buttons again to get back to Proportional Drive Setup mode. 9.3. List of Factory Parameters The following table lists the Control System Factory Parameters. For each parameter, the corresponding light display in the Output column is shown, together with the Minimum, Maximum, Adjustment Increment, and Default Value. The last two columns in the table indicate other adjustment restrictions for the parameter; some parameters may be constrained by the values of other parameters. An explanation of the parameters whose function is not immediately obvious follows the table. 26 Parameter PWM Drive Frequency for R1300 Proportional Outputs 1+/- through 4+/-
Display Type Solid 1+ Mult.-
Choice PWM Drive Frequency for R1300 Proportional Outputs 5+/- and 6+/-
Solid 1- Mult.-
Choice PWM Drive Frequency for S20 Proportional Outputs O1 through O8 Solid 2+ Mult.-
Choice PWM Drive Frequency for S20 Proportional Outputs O9 through O16 Solid 2- Mult.-
Choice Boom Load Moment Limit Boom Derating Factor, Ground Operation (%) Solid 3+ Mult.-
Choice Solid 3- Variable Value T245 Control System Manual Increm. Default Cannot Go Below N/A N/A N/A N/A N/A N/A A A Min. Max. A = 33 Hz B = 50 Hz C = 80 Hz D = 125 Hz E = 250 Hz A = 33 Hz B = 50 Hz C = 80 Hz D = 125 Hz E = 250 Hz A = 33 Hz B = 50 Hz C = 80 Hz D = 125 Hz E = 250 Hz A = 33 Hz B = 50 Hz C = 80 Hz D = 125 Hz E = 250 Hz A = 2500000 inch-lbs A A E 20 150 2 84 27 Cannot Go Above N/A N/A N/A N/A N/A N/A Display Type Solid 4+ Variable Parameter Boom Derating Factor, Platform Operation (%) Emergency Override Panel Function Speed
(%) Auger Shake Speed (%) Solid 5+ Variable Solid 4- Variable Value Value Digger Transmission Type Bucket/Pole-Claw Speed Ratio Value Solid 5- Mult.-
Choice Solid 6+ Variable Value Cannot Go Above N/A N/A N/A N/A N/A T245 Control System Manual Min. Max. 150 20 Increm. Default Cannot Go Below 2 N/A 66 5 5 100 100 5 5 A = Two-Speed B = Hydrasync 25 75 5 25 N/A 100 A 30 N/A N/A N/A 28 T245 Control System Manual PWM Drive Frequency Parameters These 4 parameters allow you to use the Receiver/Controller in heterogeneous valve systems. Grouping valves requiring different drive frequencies into separate banks, you can provide each valve with the drive frequency most suited to it. Boom Load Moment Limit This parameter allows you to select from up to five load moment limits to match the exact model of digger derrick on which you are installing the Control System. Boom Derating Factors These parameters are used to multiply (in percent) the Boom Load Moment Limit to determine the actual load limit for the boom. There are two separate factors; one is for ground operation and the other for platform operation. When you are adjusting these parameters, the T245/T45 or T247 numeric display will show the value (in percent) of the parameter you are adjusting, with no pointers
(LOAD %, DIAG1, DIAG2) showing Emergency Override Panel Function Speed This parameter determines the speed of the proportional functions when operated from the toggle switches on the Emergency Override Panel. Auger Shake Speed This parameter determines the speed of the digger when operated from the Auger Shake toggle switch. Digger Transmission Type This parameter is used to determine if the auger must be stopped while shifting speeds. Hydrasync diggers can be shifted on the fly, while two-speed diggers cannot. When the Two-Speed digger is selected, the DIGGER SHIFT functions will automatically stop the auger, perform a shift, and then restart the auger. Bucket/Pole-Claw Speed Ratio When the T245 Transmitter is holstered in the bucket, the bucket speed will be automatically set to this percentage of the pole-claw speed. 29 T245 Control System Manual 10. Warranty OMNEX Control Systems Inc. Warrants to the original purchaser that the OMNEX products are free from defects in materials and workmanship under normal use and service for a period of ONE YEAR, parts (EXCLUDING: SWITCHES, CRYSTALS, OR PARTS SUBJECT TO UNAUTHORIZED REPAIR OR MODIFICATION) and labor from the date of delivery as evidenced by a copy of the receipt. OMNEXs entire liability and your exclusive remedy shall be, at OMNEXs option, either the (a) repair or
(b) replacement of the OMNEX product which is returned within the warranty period to OMNEX freight collect by the OMNEX APPROVED carrier with a copy of the purchase receipt and with the return authorization of OMNEX. If failure has resulted from accident, abuse or misapplication, OMNEX shall have no responsibility to repair or replace the product under warranty. In no event shall OMNEX be responsible for incidental or consequential damage caused by defects in its products, whether such damage occurs or is discovered before or after replacement or repair and whether or not such damage is caused by the negligence of OMNEX Control Systems Inc. Neither OMNEX nor its Distributors shall be liable for any delay or failure of the performance of any of its obligations under this agreement caused by acts of God, labor disputes, embargoes, boycotts, shortage of parts or any cause beyond its reasonable control. Neither OMNEX nor its Distributors shall be responsible for incurred costs associated with border clearance or with the delay of the OMNEX products in transit to OMNEX. Any charges associated with the return of the OMNEX products may be subject to billing to the original purchaser in the event that the OMNEX products are NOT covered by the warranty as noted above. 30
frequency | equipment class | purpose | ||
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1 | 2004-11-08 | 902 ~ 928 | DSS - Part 15 Spread Spectrum Transmitter | Original Equipment |
app s | Applicant Information | |||||
---|---|---|---|---|---|---|
1 | Effective |
2004-11-08
|
||||
1 | Applicant's complete, legal business name |
COOPER INDUSTRIES (ELECTRICAL) INC
|
||||
1 | FCC Registration Number (FRN) |
0008688764
|
||||
1 | Physical Address |
#74-1833 Coast Meridian
|
||||
1 |
Port Coquitlam, BC, N/A
|
|||||
1 |
Canada
|
|||||
app s | TCB Information | |||||
1 | TCB Application Email Address |
j******@tuvam.com
|
||||
1 | TCB Scope |
A4: UNII devices & low power transmitters using spread spectrum techniques
|
||||
app s | FCC ID | |||||
1 | Grantee Code |
IA9
|
||||
1 | Equipment Product Code |
FH1847N
|
||||
app s | Person at the applicant's address to receive grant or for contact | |||||
1 | Name |
J**** W********
|
||||
1 | Title |
Director of Engineering
|
||||
1 | Telephone Number |
604 9********
|
||||
1 | Fax Number |
604 9********
|
||||
1 |
J******@CooperIndustries.com
|
|||||
app s | Technical Contact | |||||
n/a | ||||||
app s | Non Technical Contact | |||||
n/a | ||||||
app s | Confidentiality (long or short term) | |||||
1 | Does this application include a request for confidentiality for any portion(s) of the data contained in this application pursuant to 47 CFR § 0.459 of the Commission Rules?: | Yes | ||||
1 | Long-Term Confidentiality Does this application include a request for confidentiality for any portion(s) of the data contained in this application pursuant to 47 CFR § 0.459 of the Commission Rules?: | No | ||||
if no date is supplied, the release date will be set to 45 calendar days past the date of grant. | ||||||
app s | Cognitive Radio & Software Defined Radio, Class, etc | |||||
1 | Is this application for software defined/cognitive radio authorization? | No | ||||
1 | Equipment Class | DSS - Part 15 Spread Spectrum Transmitter | ||||
1 | Description of product as it is marketed: (NOTE: This text will appear below the equipment class on the grant) | Spread Spectrum Remote Control Transceiver | ||||
1 | Related OET KnowledgeDataBase Inquiry: Is there a KDB inquiry associated with this application? | No | ||||
1 | Modular Equipment Type | Does not apply | ||||
1 | Purpose / Application is for | Original Equipment | ||||
1 | Composite Equipment: Is the equipment in this application a composite device subject to an additional equipment authorization? | No | ||||
1 | Related Equipment: Is the equipment in this application part of a system that operates with, or is marketed with, another device that requires an equipment authorization? | No | ||||
1 | Is there an equipment authorization waiver associated with this application? | No | ||||
1 | If there is an equipment authorization waiver associated with this application, has the associated waiver been approved and all information uploaded? | No | ||||
app s | Test Firm Name and Contact Information | |||||
1 | Firm Name |
TUV America Inc.
|
||||
1 | Name |
J**** O******
|
||||
1 | Telephone Number |
85867********
|
||||
1 | Fax Number |
85854********
|
||||
1 |
j******@TUVam.com
|
|||||
Equipment Specifications | |||||||||||||||||||||||||||||||||||||||||
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Line | Rule Parts | Grant Notes | Lower Frequency | Upper Frequency | Power Output | Tolerance | Emission Designator | Microprocessor Number | |||||||||||||||||||||||||||||||||
1 | 1 | 15C | 902.00000000 | 928.00000000 | 0.0065000 |
some individual PII (Personally Identifiable Information) available on the public forms may be redacted, original source may include additional details
This product uses the FCC Data API but is not endorsed or certified by the FCC